AI Article Synopsis
- Researchers have developed a method to retrieve the refractive index profile of photonic structures using standard diffraction experiments and rigorous coupled-wave analysis, eliminating the need for additional data collection.
- The technique involves selecting a probe wavelength for the diffraction that is significantly smaller than the structure's lattice constant, allowing full recovery of the phases of the Fourier components.
- The study successfully measured the slight asymmetry of nanocomposite phase grating structures through both light and neutron diffraction methods.
Article Abstract
We experimentally demonstrate how to accurately retrieve the refractive index profile of photonic structures by standard diffraction experiments and use of the rigorous coupled-wave analysis in the multi-wave coupling regime, without the need for taking any auxiliary data. In particular, we show how the phases of the Fourier components of a periodic structure can be fully recovered by deliberately choosing a probe wavelength of the diffracting radiation much smaller than the lattice constant of the structure. In the course of our demonstration, we accurately determine the slight asymmetry of the structure of nanocomposite phase gratings by light and neutron diffraction measurements.
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| http://dx.doi.org/10.1364/OE.424233 | DOI Listing |
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